Lec5 Industrial Application
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Transcript of Lec5 Industrial Application
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Chapter 1: Industrial Applications
Presented
byDr. G.H. Massiha
Department of Industrial TechnologyUniversity of Louisiana, Lafayette
Teaching Assistant:
Kuldeep S RawatITEC 424 (Robotics)
MS Computer Engineering/Science
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Industrial Applications
Objectives Be acquainted with automation in manufacturing.
Understand Robot applications.
Recognize material-handling applications
Be familiar with processing operations
Be informed of assembly and inspection operations
Apprehend how to evaluate the potential of a robotapplication
Be aware of future applications
Perceive the challenge for the future Be informed of innovations
Be acquainted with case studies.
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Automation in Manufacturing
Goal: To integrate various operations to : Improve Productivity
Increase product quality and Uniformity
Minimize cycle times and effort
Reduce labor cost
Computers allows us to integrate virtually all phases of
manufacturing operations.Computer-integrated manufacturing(CIM): Is the computerizedintegration of all aspects of design, planning, manufacturing,distribution, and management.
Automation Technologies:
Numerical Control(NC): capability of flexibility of operations, lowcost, and ease of making different parts with lower operator skill.
Adaptive Control(AC): Continuously monitor the operation andmake necessary adjustments in process parameters.
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Automation in Manufacturing
Flexible Manufacturing System(FMS): Integrate manufacturingcells into a large unit, containing industrial robots servicingseveral machines, all interfaced with a central host computer.
Artificial Intelligence(AI): Involves the use do machines,computers and industrial robots to replace human intelligence.
Expert Systems(ES):Intelligent programs to perform tasks andsolve difficult real life problems.
Hence the applications of Robots in manufacturing are muchbroader than most people realize.
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Robot Applications
Need to replace human labor by robots:
Work environment hazardous for human beings
Repetitive tasks
Boring and unpleasant tasks
Multishift operations
Infrequent changeovers
Performing at a steady pace
Operating for long hours without rest
Responding in automated operations Minimizing variation
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Industrial Applications(contd.)
Industrial Robot Applications can be divided into: Material-handling applications:
Involve the movement of material or parts from one location toanother.
It include part placement, palletizing and/or depalletizing, machineloading and unloading.
Processing Operations:
Requires the robot to manipulate a special process tool as the endeffector.
The application include spot welding, arc welding, riveting, spraypainting, machining, metal cutting, deburring, polishing.
Assembly Applications: Involve part-handling manipulations of a special tools and other
automatic tasks and operations.
Inspection Operations: Require the robot to position a workpart to an inspection device.
Involve the robot to manipulate a device or sensor to perform theinspection.
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Material Handling Applications
This category includes the following:
Part Placement
Palletizing and/or depalletizing
Machine loading and/or unloading
Stacking and insertion operations
The robot must have following features to facilitate materialhandling:
The manipulator must be able to lift the parts safely.
The robot must have the reach needed.
The robot must have cylindrical coordinate type.
The robots controller must have a large enough memory to storeall the programmed points so that the robot can move from onelocation to another.
The robot must have the speed necessary for meeting the transfercycle of the operation.
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Material-handling(contd.)
Part Placement:
The basic operation in this category is the relatively simple pick-and-place operation.
This application needs a low-technology robot of the cylindricalcoordinate type.
Only two, three, or four joints are required for most of the
applications. Pneumatically powered robots are often utilized.
Palletizing and/or Depalletizing
The applications require robot to stack parts one on top of the
other, that is to palletize them, or to unstack parts by removingfrom the top one by one, that is depalletize them.
Example: process of taking parts from the assembly line andstacking them on a pallet or vice versa.
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Machine loading and/or unloading:
Robot transfers parts into and/or from a production machine.
There are three possible cases:
Machine loading in which the robot loads parts into a productionmachine, but the parts are unloaded by some other means.
Example: a pressworking operation, where the robot feeds sheet blanksinto the press, but the finished parts drop out of the press by gravity.
Machine loading in which the raw materials are fed into the machinewithout robot assistance. The robot unloads the part from the machine
assisted by vision or no vision. Example: bin picking, die casting, and plastic moulding.
Machine loading and unloading that involves both loading andunloading of the workparts by the robot. The robot loads a raw workpart into the process ad unloads a finished part.
Example: Machine operation
Difficulties
Difference in cycle time between the robot and the productionmachine. The cycle time of the machine may be relatively longcompared to the robots cycle time.
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Stacking and insertion operation:
In the stacking process the robot places flat parts on top of eachother, where the vertical location of the drop-off position iscontinuously changing with cycle time.
In the insertion process robot inserts parts into the compartments
of a divided carton.
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Processing Operations:
Robot performs a processing procedure on the part.
The robot is equipped with some type of process tooling as its endeffector.
Manipulates the tooling relative to the working part during thecycle.
Industrial robot applications in the processing operations include: Spot welding
Continuous arc welding
Spray painting
Metal cutting and deburring operations
Various machining operations like drilling, grinding, laser and waterjetcutting, and riveting.
Rotating and spindle operations
Adhesives and sealant dispensing
Processing Operations
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Assembly Operations:
The applications involve both material-handling and themanipulation of a tool.
They typically include components to build the product and toperform material handling operations.
Are traditionally labor-intensive activities in industry and are highlyrepetitive and boring. Hence are logical candidates for roboticapplications.
These are classified as:
Batch assembly: As many as one million products might be assembled.The assembly operation has long production runs.
Low-volume: In this a sample run of ten thousand or less products
might be made. The assembly robot cell should be a modular cell.
One of the well suited area for robotics assembly is the insertion ofodd electronic components.
Figure illustrates a typical overall electronic assembly operation.
Assembly Operations
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Inspection Operation:
Some inspection operation require parts to be manipulated, andother applications require that an inspection tool be manipulated.
Inspection work requires high precision and patience, and humanjudgment is often needed to determine whether a product is withinquality specifications or not.
Inspection tasks that are performed by industrial robots can usually
be divided into the following three techniques:
By using a feeler gauge or a linear displacement transducer known as alinear variable differential transformer(LVDT), the part being measuredwill come in physical contact with the instrument or by means of airpressure, which will cause it to ride above the surface being measured.
By utilizing robotic vision, matrix video cameras are used to obtain animage of the area of interest, which is digitized and compared to asimilar image with specified tolerance.
By involving the use of optics and light, usually a laser or infraredsource is used to illustrate the area of interest.
Inspection Operations
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Inspection Operations(contd.)
The robot may be in active or passive role.
In active role robot is responsible for determining whether the part isgood or bad.
In the passive role the robot feeds a gauging station with the part.While the gauging station is determining whether the part meets thespecification, the robot waits for the process to finish.
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Evaluating the potential of a RobotApplications
Evaluation of the potential of the robot depends on:
Analysis of the application
Long- and short-term objectives
Manufacturing and processes involved
Space availability
Budget
System objectives
Feasibility Study
How a more automated system will affect related operations in the plant
Material-handling methods
Commercial equipment available
CAD cell simulation
System Proposal
Functional specifications
System operation
Robot type
Tooling
Peripheral equipment
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System Design Microprocessor control
Software
Multiple levels of control
Construction Phase It is a good procedure for the system to be set up and thoroughly
tested at the suppliers facility.
This will minimize the interruption of current production procedures.
Installation Phase It is a good practice for the supplier to supervise the step-by-step
installation of the system.
Training and Documentation Hands on robot training should be provided by the supplier for all the
persons who will interface with the new automated system.
The supplier should provide the design drawings and documentationfor system control, operation, and maintenance.
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Future Applications
The keys areas to be explored for robot applications in future
are:
The medical applications of the robot:
Routine examinations
Surgical procedures
Underwater applications
Involve prospecting for minerals on the floor of the ocean.
Salvaging of sunken vessels, repair the ship either at sea or in drydock.
Mobile firefighters to be used by Air force and Navy.
Surveillance and Guard duty In military
Power generating plants, oil refineries and other civilian facilities thatare potential targets of terrorist groups.
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In summary, some future foreseen applications are listed asfollows: Aerospace
Agriculture
Construction
Health
Nuclear
Textile Lab automation
Underwater surveying
Surveillance and guard duty
Navigation systems
Firefighting Household robot
Note: All these applications will need to be more intelligent inorder to make rapid decisions based on current sensoryinformation.